控制理论(社会学)
机电一体化
控制器(灌溉)
观察员(物理)
计算机科学
执行机构
控制系统
控制(管理)
工程类
农学
量子力学
生物
电气工程
物理
人工智能
作者
Jiliang Song,Dawei Shi,Hao Yu,Yang Shi,Junzheng Wang
标识
DOI:10.1109/tie.2022.3217594
摘要
In this article, two dynamic proportional-integral (DPI) event-triggering mechanisms (ETMs) are proposed for both the disturbance observation and output feedback control of a class of networked mechatronic systems. First, we consider the accumulative errors of output and control samplings in the ETMs of the sensor/observer and controller/actuator channels, respectively, which are embodied in two positive integral terms. Then, an auxiliary variable associated with the sampling error is designed to enlarge the threshold dynamically for each channel, which can be proved to provide larger interevent times than its static counterpart. Furthermore, a codesign approach for the observer, the controller, and the DPI-type ETMs are developed so that the observation error and the system state are uniformly ultimately bounded. The closed-loop stability is proved theoretically by designing compact invariant sets based on the Lyapunov approach, and the Zeno-freeness of the DPI-type ETMs is also guaranteed. Finally, the numerical examples and comparative experiments on an ultrasonic motor platform show the effectiveness of the proposed DPI-type ETMs in improving the closed-loop performance and reducing the communication rates compared with the static counterparts and the classic proportional-type ETMs.
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